US 20020160470A1 (19) United States (12) Patent Application Publication (10) Pub. N0.: US 2002/0160470 A1 Zhang (43) Pub. Date: Oct. 31, 2002 (54) METHODS AND APPARATUS FOR (52) US. Cl. ........................................... .. 435/1731; 435/2 GENERATING AND UTILIZING LINEAR MOVING OPTICAL GRADIENTS (75) Inventor: Haichuan Zhang, San Diego, CA (US) (57) ABSTRACT Correspondence Address: LYON & LYON LLP 633 WEST FIFTH STREET Apparatus and methods are provided for interacting light SUITE 4700 With particles, including but not limited to biological matter LOS ANGELES, CA 90071 (US) such as cells, in unique and highly useful Ways. Optophore sis consists of subjecting particles to various optical forces, (73) Assignee: GenoptiX especially optical gradient forces, and more particularly moving optical gradient forces, so as to obtain useful results. (21) Appl. No.: 10/053,507 In one implementation, a population of particles, comprising (22) Filed: Jan. 17, 2002 tWo or more differing particles, e.g., red blood cells and White blood cells, are illuminated by a line of light Which is Related US. Application Data moved sloWly relative to the particle population. The par ticles are moved With the line until the population is aligned. (63) Continuation-in-part of application No. 09/993,377, Next, the line of particles is subject to relative motion of ?led on Nov. 14, 2001, Which is a continuation-in-part light relative to the particles, such as by rapidly moving the of application No. 09/845,245, ?led on Apr. 27, 2001. line of illumination relative to the physical position of the particles. By moving the line aWay from the particles at a (60) Provisional application No. 60/248,451, ?led on Nov. rate great enough that certain particles remain behind, effec 13, 2000. tive separation, characterization and/or identi?cation of the Publication Classi?cation particles may be made. Optionally, the direction of the loW initial scan is in a direction opposition to the more rapid scan (51) Int. Cl? ........................... .. A01N 1/02; C12N 13/00 after the particles have been aligned. Patent Application Publication Oct. 31, 2002 Sheet 1 0f 25 US 2002/0160470 A1 Focused Beam Cross-Section of Intensity 76 Particle l0 (QB-MM) FV =2n'r3 a + 225 FV = Optical force on particle towards higher intensity r = Radius of particle 85 = Dielectric constant of backround medium a = Dielectric constant of particle | = Light intensity (Wlcm 2) V = Spatial derivative , FIG. 1 Patent Application Publication Oct. 31, 2002 Sheet 2 0f 25 US 2002/0160470 A1 FIG. 2 22 Km 22 /\/ 22 26 w a 40 .32 28 52 _50_ FIG. 3 90 92 i0. 82 9% Ci 96'? W8 M8 Q Jk94 112 I14 105M116 84 35 110 720 “402 704 Microscope Objective 706 FIG. 4 I08 Patent Application Publication Oct. 31, 2002 Sheet 3 0f 25 US 2002/0160470 A1 Microscope Objective Y I Levitated Particle [I M Mic>>ope Slide Microscope Objective FIG. 4A Patent Application Publication Oct. 31, 2002 Sheet 4 0f 25 US 2002/0160470 A1 6528 E556 E »§ vm3202i5 §. vNI\\11I1Q\1 3 ;R mmms5, m“m3.m%: w,ke2“: m?céywz?m. (MUl5:M ! _ NE:? 5 22; 955:a VmmA10% : 3m@?uzszMl 5m Patent Application Publication Oct. 31, 2002 Sheet 5 0f 25 US 2002/0160470 A1 gm 6528 25.H55 8 VNmew2 _3m 8w 5 §( 5walk 8%?” @262 20% 595%:; AQP2 _ .65m@2% aVm:Qm :2 Patent Application Publication Oct. 31, 2002 Sheet 6 0f 25 US 2002/0160470 A1 FIG. 7 ) ‘ 252 w 230 234v/ FROM -—->~ 248 SOURCE CONTROL 240 P 238 242 244 IR FILTER 246 Patent Application Publication Oct. 31, 2002 Sheet 7 0f 25 US 2002/0160470 A1 280 / 255 FIG. 9A Patent Application Publication Oct. 31, 2002 Sheet 8 0f 25 US 2002/0160470 A1 296 290 290 \ 292 2;; t: ~90 #292 i i) i k l“ 294 FI G. 1 0 406 406 406 ulmensity) lZ\/\\ FIG. 1 1A . 407 402 lFuForce) FIG. 11B 474 “W otentia "M/ / N FIG. 11C 4 08 Patent Application Publication Oct. 31, 2002 Sheet 9 0f 25 US 2002/0160470 A1 @ 300 FIG. 12A 502 @ M304 @ FIG. 1215’ FIG. 12C u (POTENTlAL) 578 FIG. 1315’ FIG. 13C
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